Sun-powered Wastewater Treatment with a Hydrogen Bonus: Unveiling the Potential of Zno-Tio2 Nanoparticles
Wastewater and drinking water that include heavy metals pose a serious hazard to the environment and all land, air, and water-based life. Wastewater treatment employs various methods, including cutting-edge nanomaterials and biological techniques like photocatalysis. This article introduces ZnO-TiO...
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| Veröffentlicht in: | Waste and biomass valorization 2024-11, Vol.15 (11), p.6281-6291 |
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| creator | Shingare, Shyamala Prakash Kanfade, Lekhram B. Mane, Vijay B. Kumbhar, Gajanan B. Suryawanshi, Mahesh A. |
| description | Wastewater and drinking water that include heavy metals pose a serious hazard to the environment and all land, air, and water-based life. Wastewater treatment employs various methods, including cutting-edge nanomaterials and biological techniques like photocatalysis. This article introduces
ZnO-TiO
2
nanoparticles for wastewater treatment through algal bioremediation. Different photocatalytic genres are explored, showcasing the potential for solar-driven hydrogen production from water with
ZnO-TiO
2
-supported photocatalysts interacting comprehensively with pollutant molecules. Nano photocatalysts are applied using diverse techniques: creating hydrogel structures for immobilization, electrospinning for nanocatalyst treatment, and forming core–shell structures to enhance catalytic activity. Addressing environmental degradation, recent research prioritizes catalysis for converting biomass into eco-friendly fuels. The high cost of algae-based biodiesel is linked to substantial water and inorganic fertilizer demands. This study utilizes Scenedesmus sp DDVG I and Chlorella sp for low-nitrogen wastewater bioremediation. It explores hydrogen generation using renewable electricity and introduces
FeCO-NiCoP
nanowire arrays to enhance Hydrogen Evolution Reaction (HER) performance. Matlab software evaluates the proposed task, highlighting advancements in sustainable wastewater treatment and efficient hydrogen production. The findings showed that with efficient wastewater treatment, harvesting efficiency increased by 99.58%. The outcomes show that using microalgae is a sustainable strategy since it increases the effectiveness of removing nutrients from wastewater.
Graphical Abstract |
| doi_str_mv | 10.1007/s12649-024-02570-9 |
| format | Article |
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ZnO-TiO
2
nanoparticles for wastewater treatment through algal bioremediation. Different photocatalytic genres are explored, showcasing the potential for solar-driven hydrogen production from water with
ZnO-TiO
2
-supported photocatalysts interacting comprehensively with pollutant molecules. Nano photocatalysts are applied using diverse techniques: creating hydrogel structures for immobilization, electrospinning for nanocatalyst treatment, and forming core–shell structures to enhance catalytic activity. Addressing environmental degradation, recent research prioritizes catalysis for converting biomass into eco-friendly fuels. The high cost of algae-based biodiesel is linked to substantial water and inorganic fertilizer demands. This study utilizes Scenedesmus sp DDVG I and Chlorella sp for low-nitrogen wastewater bioremediation. It explores hydrogen generation using renewable electricity and introduces
FeCO-NiCoP
nanowire arrays to enhance Hydrogen Evolution Reaction (HER) performance. Matlab software evaluates the proposed task, highlighting advancements in sustainable wastewater treatment and efficient hydrogen production. The findings showed that with efficient wastewater treatment, harvesting efficiency increased by 99.58%. The outcomes show that using microalgae is a sustainable strategy since it increases the effectiveness of removing nutrients from wastewater.
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ZnO-TiO
2
nanoparticles for wastewater treatment through algal bioremediation. Different photocatalytic genres are explored, showcasing the potential for solar-driven hydrogen production from water with
ZnO-TiO
2
-supported photocatalysts interacting comprehensively with pollutant molecules. Nano photocatalysts are applied using diverse techniques: creating hydrogel structures for immobilization, electrospinning for nanocatalyst treatment, and forming core–shell structures to enhance catalytic activity. Addressing environmental degradation, recent research prioritizes catalysis for converting biomass into eco-friendly fuels. The high cost of algae-based biodiesel is linked to substantial water and inorganic fertilizer demands. This study utilizes Scenedesmus sp DDVG I and Chlorella sp for low-nitrogen wastewater bioremediation. It explores hydrogen generation using renewable electricity and introduces
FeCO-NiCoP
nanowire arrays to enhance Hydrogen Evolution Reaction (HER) performance. Matlab software evaluates the proposed task, highlighting advancements in sustainable wastewater treatment and efficient hydrogen production. The findings showed that with efficient wastewater treatment, harvesting efficiency increased by 99.58%. The outcomes show that using microalgae is a sustainable strategy since it increases the effectiveness of removing nutrients from wastewater.
Graphical Abstract</description><subject>Agrochemicals</subject><subject>Algae</subject><subject>Biodegradation</subject><subject>Biodiesel fuels</subject><subject>Biofuels</subject><subject>Bioremediation</subject><subject>Catalysis</subject><subject>Catalytic activity</subject><subject>Catalytic converters</subject><subject>Core-shell structure</subject><subject>Drinking behavior</subject><subject>Drinking water</subject><subject>Engineering</subject><subject>Environment</subject><subject>Environmental degradation</subject><subject>Environmental Engineering/Biotechnology</subject><subject>Heavy metals</subject><subject>Hydrogen</subject><subject>Hydrogen evolution reactions</subject><subject>Hydrogen production</subject><subject>Immobilization</subject><subject>Industrial Pollution Prevention</subject><subject>Mineral fertilizers</subject><subject>Nanomaterials</subject><subject>Nanoparticles</subject><subject>Nanotechnology</subject><subject>Nanowires</subject><subject>Nutrients</subject><subject>Original Paper</subject><subject>Photocatalysis</subject><subject>Photocatalysts</subject><subject>Renewable and Green Energy</subject><subject>Titanium dioxide</subject><subject>Waste Management/Waste Technology</subject><subject>Wastewater treatment</subject><subject>Water treatment</subject><subject>Zinc oxide</subject><issn>1877-2641</issn><issn>1877-265X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNp9kM9LwzAUx4MoOOb-AU8Bz9X8aJvGmw51wlDBDcVLSNt0y-iSmqSO_fdGK3rz8Hjv8Pm-x_sAcIrROUaIXXhM8pQniKSxMoYSfgBGuGAsIXn2evg7p_gYTLzfIIQIxgWhbAT0c2-Szu6UUzV8kT6onQzKwYVTMmyVCXCnwxpKONvXzq6UgdfW9P4SLs2H0q02KxjWCj7ZEFktW2gb-GZsstCWwAdpbCdd0FWr_Ak4amTr1eSnj8Hy9mYxnSXzx7v76dU8qSiiIaElyvKaslSRuuAMU9zwGjcE5xXDKcoqTlHJFS9pSlEhWVXKKstqzjLa5E1Z0DE4G_Z2zr73ygexsb0z8aSg8es0z1mBIkUGqnLWe6ca0Tm9lW4vMBJfVsVgVUSr4tuq4DFEh5CPsFkp97f6n9QnQCl6Nw</recordid><startdate>20241101</startdate><enddate>20241101</enddate><creator>Shingare, Shyamala Prakash</creator><creator>Kanfade, Lekhram B.</creator><creator>Mane, Vijay B.</creator><creator>Kumbhar, Gajanan B.</creator><creator>Suryawanshi, Mahesh A.</creator><general>Springer Netherlands</general><general>Springer Nature B.V</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20241101</creationdate><title>Sun-powered Wastewater Treatment with a Hydrogen Bonus: Unveiling the Potential of Zno-Tio2 Nanoparticles</title><author>Shingare, Shyamala Prakash ; 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Wastewater treatment employs various methods, including cutting-edge nanomaterials and biological techniques like photocatalysis. This article introduces
ZnO-TiO
2
nanoparticles for wastewater treatment through algal bioremediation. Different photocatalytic genres are explored, showcasing the potential for solar-driven hydrogen production from water with
ZnO-TiO
2
-supported photocatalysts interacting comprehensively with pollutant molecules. Nano photocatalysts are applied using diverse techniques: creating hydrogel structures for immobilization, electrospinning for nanocatalyst treatment, and forming core–shell structures to enhance catalytic activity. Addressing environmental degradation, recent research prioritizes catalysis for converting biomass into eco-friendly fuels. The high cost of algae-based biodiesel is linked to substantial water and inorganic fertilizer demands. This study utilizes Scenedesmus sp DDVG I and Chlorella sp for low-nitrogen wastewater bioremediation. It explores hydrogen generation using renewable electricity and introduces
FeCO-NiCoP
nanowire arrays to enhance Hydrogen Evolution Reaction (HER) performance. Matlab software evaluates the proposed task, highlighting advancements in sustainable wastewater treatment and efficient hydrogen production. The findings showed that with efficient wastewater treatment, harvesting efficiency increased by 99.58%. The outcomes show that using microalgae is a sustainable strategy since it increases the effectiveness of removing nutrients from wastewater.
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| subjects | Agrochemicals Algae Biodegradation Biodiesel fuels Biofuels Bioremediation Catalysis Catalytic activity Catalytic converters Core-shell structure Drinking behavior Drinking water Engineering Environment Environmental degradation Environmental Engineering/Biotechnology Heavy metals Hydrogen Hydrogen evolution reactions Hydrogen production Immobilization Industrial Pollution Prevention Mineral fertilizers Nanomaterials Nanoparticles Nanotechnology Nanowires Nutrients Original Paper Photocatalysis Photocatalysts Renewable and Green Energy Titanium dioxide Waste Management/Waste Technology Wastewater treatment Water treatment Zinc oxide |
| title | Sun-powered Wastewater Treatment with a Hydrogen Bonus: Unveiling the Potential of Zno-Tio2 Nanoparticles |
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